CN105242511A - Gear seat, driving assembly and treatment box - Google Patents

Abstract

The invention provides a gear seat, a driving assembly and a treatment box. The gear seat comprises a seat body, wherein a gear is arranged on the outer circumferential wall of the seat body along the circumferential direction; an inwards sunken barrel-shaped accommodating cavity is formed in the seat body along the axial line; a boss is inwards arranged on the bottom surface of the accommodating cavity along the axial line; an inwards sunken spherical outer wall is formed at the end part of the boss; a through slot is formed in the spherical outer wall; a guide hole is formed in the bottom of the spherical outer wall along the axial line along the axial line; a spring mounting position is arranged at a position, close to the guide hole, on the accommodating cavity; a driven part extending inwards along the radial direction is arranged on the inner wall of the accommodating cavity. The invention further provides a driving assembly with the gear seat and a treatment box. The gear seat is high in universality and practicability; the use demands of different products and users can be met; the gear seat is convenient to assemble and detach.

Description

Pinion stand, driven unit and handle box

Technical field

The driven unit the present invention relates to printing consumables field, especially relate to a kind of pinion stand, adopting this pinion stand to build and handle box.

Background technology

Usually use handle box as the toner source of supply used during imaging in imaging device, existing handle box mostly can be releasably attached in imaging device and use.

Usually, the working roll of many rotations in handle box, such as powder feeding roller, developer roll and photosensitive drums etc., they are commonly referred to as roller, and transmit power by gear train each other.At present, handle box has two kinds of structures.The first is integral type handle box disclosed in american documentation literature US5815644, the handle box of integral type has photosensitive drums, developer roll, cleaning device and charging device etc., the second is split type handle box disclosed in american documentation literature US6330410, split type handle box comprises bulging box and Delevoping cartridge, Delevoping cartridge is removably mounted on bulging box, drum box comprises the parts such as photosensitive drums, charging device and cleaning device, and Delevoping cartridge comprises the parts such as developer roll, powder outlet cutter and powder feeding roller.

Usually, photosensitive drums receives the driving force of imaging device by the driven unit being assemblied in its one end and works, and developer roll receives the driving force relied in photosensitive drums by gear train, as the handle box disclosed in american documentation literature US6898399.In addition, developer roll also can directly receive the driving force from imaging device by the driven unit being assemblied in its end and work, thus receive the driving force from imaging device independently of one another with photosensitive drums, as the handle box disclosed in american documentation literature US20080138115A1.The driving force that developer roll receives is from outside photosensitive drums and imaging device, can also by an assembling driven unit on the sidewall of handle box framework, this driven unit receives the driving force of imaging device, by gear train, driving force is passed to developer roll again, as the handle box disclosed in U.S. Patent number US7826767.

But these driven units above-mentioned swing at random under the state of non-stress, so when the installation or removal of handle box, easily cause between driven unit and driving shaft mutually stuck, even cause the damage of driven unit and driving shaft, cause handle box or imaging device normally to work.Driven unit all carries out structural adaptation to a kind of driving force receiving element simultaneously, makes driven unit cannot use the driving force receiving element of other structures, makes the user demand that can not meet different product and client, cannot provide further convenient for user.

Summary of the invention

The first object of the present invention is to provide a kind of pinion stand with good versatility and practicality.

The second object of the present invention is to provide a kind of driven unit with good versatility and practicality.

The third object of the present invention is to provide a kind of handle box with good versatility and practicality.

In order to realize the first object of the present invention, the invention provides a kind of pinion stand, comprise pedestal, pedestal periphery wall is circumferentially provided with gear, pedestal is formed with the tubular container cavity along axis indent, wherein, the bottom surface of container cavity is provided with boss inwardly along axis, the end of boss is formed with the sphere outer wall caved in, sphere outer wall has been disposed radially groove, the bottom of sphere outer wall penetratingly offers guide hole along axis, and container cavity is provided with spring fitting position on the position of guide hole, and the inwall of container cavity is radially extended with follower inwardly.

From such scheme, by arranging the sphere outer wall and guide hole that cave on the boss arranged along axis respectively, and groove is set at sphere outer wall and spring fitting position is set on the position near guide hole, make the driving force receiving element of the driving force receiving element of universal ball joint and concertina type all can this pinion stand adaptive, and can accept from driving force receiving element the rotation that driving force realizes pinion stand then, the good versatility had by this pinion stand and practicality, just the use problem of different product and user can be met, and pinion stand provides the structure of detachable assembling for driving force receiving element, therefore user installation is facilitated to dismantle.

Further scheme is, the end that guide hole is positioned at container cavity is provided with fillet surface.

Therefore, make under the use of driving force receiving element not affecting concertina type by the setting of fillet surface, driving force receiving element for universal ball joint provides a bottom relatively fixable position, and universal ball joint can better be stablized by fillet surface and rotate smoothly.

Further scheme is, the internal diameter of sphere outer wall is greater than the internal diameter of guide hole.

Therefore, all can adaptive pinion stand well by the driving force receiving element of the driving force receiving element being arranged so that universal ball joint of this size and concertina type, and the structure connected does not interfere with each other mutually, can utilize the container cavity of the useful space fully.

Further scheme is, spring fitting position is for being arranged on the reference column on the end face of groove.

Therefore the setting of reference column can facilitate the installation of elastic component to fix.

Further scheme is, pinion stand also comprises lid, and cover cap is combined on container cavity, and lid is penetratingly provided with pilot hole vertically.

Further scheme is, pilot hole is being provided with location division along axis, and the radial both sides of location division are provided with the portion of stepping down.

Therefore, by lid be arranged on pilot hole on lid, good protection and spacing can be provided for the driving force receiving element of concertina type, make this driving force receiving element receive driving force, the rotation of driven gear seat then through after lid in container cavity.

In order to realize the second object of the present invention, the invention provides a kind of driven unit, comprise pinion stand and driving force receiving element, pinion stand comprises pedestal, pedestal periphery wall is circumferentially provided with gear, pedestal is formed with the tubular container cavity along axis indent, driving force receiving element comprises the drive division be arranged in container cavity, the rod body part being arranged on the outer end outside container cavity and being connected between drive division and outer end, wherein, the bottom surface of container cavity is provided with boss inwardly along axis, the end of boss is formed with the sphere outer wall caved in, sphere outer wall has been disposed radially groove, the bottom of sphere outer wall penetratingly offers guide hole along axis, container cavity is provided with spring fitting position on the position of guide hole, the inwall of container cavity is radially extended with follower inwardly.

From such scheme, by arranging the sphere outer wall and guide hole that cave on the boss arranged along axis respectively, and groove is set at sphere outer wall and spring fitting position is set on the position near guide hole, make the driving force receiving element of the driving force receiving element of universal ball joint and concertina type all can this pinion stand adaptive, and can accept from driving force receiving element the rotation that driving force realizes pinion stand then, the good versatility had by this pinion stand and practicality, just the use problem without product and user can be met, and pinion stand provides the structure of detachable assembling for driving force receiving element, therefore user installation is facilitated to dismantle.

Further scheme is, it is interior and adjacent with groove that drive division is arranged on sphere outer wall.

Therefore the driving force receiving element of universal ball joint coordinates with the sphere outer wall caved in, be that this driving force receiving element can rotate in sphere outer wall, and enable driving force by the rotation of groove driven gear seat.

Further scheme is, driven unit also comprises the spring part be enclosed within rod body part, and the first end of spring part is connected with drive division, and the second end of spring part is connected with spring fitting position, and rod body part also can reciprocatingly slide along guide hole through guide hole.

Therefore the driving force receiving element of concertina type, by the cooperation of spring part and the setting of guide hole, can not only make this driving force receiving element along axis ground telescopic slide, can also carry out the reset rotated in a circumferential direction.

In order to realize the third object of the present invention, the invention provides a kind of handle box, the roller comprising framework and be rotatably supported in framework, roller comprises roll body and is arranged on driven unit on one end of roll body, driven unit comprises pinion stand and driving force receiving element, pinion stand comprises pedestal, pedestal periphery wall is circumferentially provided with gear, pedestal is formed with the tubular container cavity along axis indent, driving force receiving element comprises the drive division be arranged in container cavity, the rod body part being arranged on the outer end outside container cavity and being connected between drive division and outer end, wherein, the bottom surface of container cavity is provided with boss inwardly along axis, the end of boss is formed with the sphere outer wall caved in, sphere outer wall has been disposed radially groove, the bottom of sphere outer wall penetratingly offers guide hole along axis, container cavity is provided with spring fitting position on the position of guide hole, the inwall of container cavity is radially extended with follower inwardly.

From such scheme, by arranging the sphere outer wall and guide hole that cave on the boss arranged along axis respectively, and groove is set at sphere outer wall and spring fitting position is set on the position near guide hole, make the driving force receiving element of the driving force receiving element of universal ball joint and concertina type all can this pinion stand adaptive, and can accept from driving force receiving element the rotation that driving force realizes pinion stand then, the good versatility had by this pinion stand and practicality, just the use problem without product and user can be met, and pinion stand provides the structure of detachable assembling for driving force receiving element, therefore user installation is facilitated to dismantle.

Accompanying drawing explanation

Fig. 1 is the structural drawing of driven unit first embodiment of the present invention.

Fig. 2 is the STRUCTURE DECOMPOSITION figure of driven unit first embodiment of the present invention.

Fig. 3 is the structural drawing of pedestal in driven unit first embodiment of the present invention.

Fig. 4 is the cut-open view of pedestal in driven unit first embodiment of the present invention.

Fig. 5 is the structural drawing of driven unit first embodiment middle gear seat of the present invention.

Fig. 6 is the cut-open view of driven unit first embodiment of the present invention.

Fig. 7 is the cut-open view of driven unit first embodiment of the present invention when being connected with driving head.

Fig. 8 is the cut-open view of driven unit second embodiment of the present invention.

Fig. 9 is the cut-open view of driven unit second embodiment of the present invention when being connected with driving head.

Below in conjunction with drawings and Examples, the invention will be further described.

Embodiment

Driven unit first embodiment:

See figures.1.and.2, Fig. 1 is the structural drawing of driven unit 1, and Fig. 2 is the STRUCTURE DECOMPOSITION figure of driven unit 1.Driven unit 1 comprises pinion stand, driving force receiving element 4 and spring part 44, and pinion stand comprises pedestal 2 and lid 3.

Driving force receiving element 4 comprises outer end 41 for receiving rotary driving force, for rotary driving force being delivered to the drive division 43 of next stage parts and arranging rod body part 42 along driving force receiving element 4 central shaft.Outer end 41 is arranged on the outermost end of rod body part 42, and two drive divisions 43 extend radially outward cylinder in rod body part 42.The shape of the roughly similar torch in outer end 41, and radially offer groove 412 in the center of outer end 41, the both sides of this groove 412 are formed with outwardly directed two dogs 411, two dogs 411 and are symmetric.Spring part 44 is sleeved in rod body part 42, and spring part 44 has first end and the second end, and first end and the second end are all arranged in coiling, and the second end of spring part 44 is enclosed within drive division 43.

With reference to Fig. 3 and Fig. 4, and composition graphs 2, Fig. 3 is the structural drawing of pedestal 2, and Fig. 4 is the cut-open view of pedestal 2.Pedestal 2 is arranged in bottomed cylindrical, and the periphery wall in the middle part of pedestal 2 is circumferentially provided with helical teeth portion 21, and helical teeth portion 21 is for transmitting rotary driving force.Periphery wall bottom pedestal 2 circumferentially arranges fixed part 28, fixed part 28 for installing fixing rod body, rod body can be in developer roll, photosensitive drums, powder feeding roller etc. rod body.Pedestal 2 is formed with the container cavity 22 of indent vertically at middle part, the internal perisporium of container cavity 22 is provided with six raised lines and follower 251,252, follower 251,252 is symmetrical arranged in circumference, follower 251,252 is radially extended inwardly from the internal perisporium of container cavity 22, follower 251,252 extends along the axis of pedestal 2 simultaneously, form multiple installation groove 27 arranged vertically between six raised lines, groove 27 is installed and is uniformly distributed circumferentially.

The bottom of container cavity 22 is provided with bottom surface, boss 23 is provided with inwardly along the axis of pedestal 2 in bottom surface, the end of boss 23 is formed with the sphere outer wall 231 caved in, sphere outer wall 231 radially offers groove 234, and groove 234 symmetrically distributes, penetratingly offer guide hole 232 in the bottom of sphere outer wall 231 along axis, the end that guide hole 232 is positioned at container cavity is provided with fillet surface 233, and the internal diameter of sphere outer wall 231 is greater than the internal diameter of guide hole 232.Container cavity 22 is provided with spring fitting position 24 on the position of guide hole 232, and spring fitting position 24 is for being arranged on the projection on side groove 234 end face.

On the end face of container cavity 22 opening part, be provided with buckle 261 at follower 251, be provided with buckle 262 at follower 252 on the end face of container cavity 22 opening part, buckle 261 and buckle 262 symmetrically are arranged.

With reference to Fig. 5 composition graphs 2, Fig. 5 is the structural drawing of pinion stand, lid 3 is covered with at the opening part of container cavity 22, multiple installation raised line 31 is provided with vertically in the outer circumference of lid 3, multiple installation raised line 31 is uniformly distributed circumferentially, lid 3 is penetratingly provided with pilot hole 32 vertically, pilot hole 32 is being provided with location division 321 along axis, the radial both sides of location division 321 are provided with the portion of stepping down 322, 323, particularly, location division 321 has circular perisporium, the internal diameter of location division 321 is roughly equal with the external diameter of rod body part 42, portion 232 length diametrically of stepping down is greater than buckle 261 length diametrically, portion 233 length diametrically of stepping down is greater than buckle 262 length diametrically.When lid 3 covers on pedestal 2, install raised line 31 and coordinate with installation groove 27, buckle 261 engages with screens portion 232, and buckle 262 engages with screens portion 233, and realizes the fixed installation of lid 3.

With reference to Fig. 6, Fig. 6 is the cut-open view of driven unit 1, pedestal 2, lid 3, when driving receiving element 4 and spring part 44 to assemble, cover has the driving force receiving element 4 of spring part 44 to extend into the bottom of rod body part 42 in container cavity 22 through guide hole 232, second end of spring part 44 to be enclosed within spring fitting position 24 and to realize connecting, drive division 43 is positioned at container cavity 22, outer end is positioned at outside container cavity 22, rod body part 42 is connected between drive division 43 and outer end 41, drive division 43 can respectively with follower 251, follower 252 adjoins, outer end 41 rotates about the axis after receiving the driving force exported by imaging device, then the rotation of driven gear seat.

With reference to Fig. 7, Fig. 7 is that driven unit 1 is connected cut-open view when coordinating with the driving head 5 of imaging device, when the outer end 41 of driving force receiving element 4 contacts with driving head 5, because rod body part 42 also can reciprocatingly slide along guide hole 232 through guide hole 232, therefore driving force receiving element 4 slides and the rod body part 42 that exposes of a part of shrinking back towards container cavity 22, then realize the connection of outer end 41 and driving head 5.After driven unit 1 is separated with driving head 5, under the effect of spring part 44, driving force receiving element 4 circumferentially does to reset and rotates, and driving force receiving element 4 does reset movement vertically.

Driven unit second embodiment:

With reference to the cut-open view that Fig. 8 and Fig. 9, Fig. 8 are driven unit second embodiments, Fig. 9 is driven unit second embodiment is connected when coordinating cut-open view with driving head.On the basis of the same principle of driven unit first embodiment, adopt pedestal 2 same as the previously described embodiments and driving force receiving element 6, namely driven unit second embodiment comprises pedestal 2 and driving force receiving element 6,

Driving force receiving element 6 is roughly arranged along Axis Extension, driving force receiving element 6 comprises outer end 61 for receiving rotary driving force, for the drive division 63 that rotary driving force is delivered to pedestal 2 and the rod body part 62 be connected between outer end 61 and inner end 63, outer end 61, rod body part 62 and inner end 62 are arranged along axis successively.Drive division 63 comprises the spherical outer wall of evagination and is arranged on two drive post of spherical outer wall, two drive post are radially symmetrical arranged, when driving force receiving element 6 is installed in pedestal 2, drive division 63 coordinates with sphere outer wall 231, the drive division 63 with universal joint function can be rotated at sphere outer wall 231, and utilize drive post and groove 234 to adjoin, make driving force receiving element 6 obtain rotary driving force and be passed to pedestal 2, then make driven unit rotate.

When driven unit is connected with driving head, the outer end 61 of driving force receiving element 6 contacts with driving head, spacing due to without lid, driving force receiving element 6 can be connected with driving head obliquely, when driven unit is in place, driving head is positioned at the inner groovy of outer end 61.

Handle box embodiment:

The roller that handle box comprises framework and is rotatably supported in framework, roller comprises roll body and is arranged on driven unit on one end of roll body, and driven unit can adopt driven unit arbitrary in above-described embodiment.

Therefore, by arranging the sphere outer wall and guide hole that cave on the boss arranged along axis respectively, and groove is set at sphere outer wall and spring fitting position is set on the position near guide hole, make the driving force receiving element of the driving force receiving element of universal ball joint and concertina type all can this pinion stand adaptive, and can accept from driving force receiving element the rotation that driving force realizes pinion stand then, the good versatility had by this pinion stand and practicality, just the use problem of different product and user can be met, namely when user needs to repack driven unit first embodiment into driven unit the second embodiment, only need to move buckle, and lid is disassembled from pedestal, the driving force receiving element of spring part is had to take out in cover subsequently, change the driving force receiving element with universal joint subsequently, and the driving force receiving element of universal joint is installed in spherical outer wall, just the repacking of driven unit is completed, therefore user installation is facilitated to dismantle.

Claims (10)

1. pinion stand, comprises pedestal, and described pedestal periphery wall is circumferentially provided with gear, and described pedestal is formed with the tubular container cavity along axis indent;

It is characterized in that:

The bottom surface of described container cavity is provided with boss inwardly along axis, and the end of described boss is formed with the sphere outer wall caved in, and described sphere outer wall has been disposed radially groove;

The bottom of described sphere outer wall penetratingly offers guide hole along axis;

Described container cavity is provided with spring fitting position on the position of described guide hole;

The inwall of described container cavity is radially extended with follower inwardly.

2. pinion stand according to claim 1, is characterized in that:

The end that described guide hole is positioned at described container cavity is provided with fillet surface.

3. pinion stand according to claim 1, is characterized in that:

The internal diameter of described sphere outer wall is greater than the internal diameter of described guide hole.

4. pinion stand according to claim 1, is characterized in that:

Described spring fitting position is for being arranged on the reference column on the end face of described groove.

5. the pinion stand according to any one of Claims 1-4, is characterized in that:

Described pinion stand also comprises lid, and described cover cap is combined on described container cavity, and described lid is penetratingly provided with pilot hole vertically.

6. pinion stand according to claim 5, is characterized in that:

Described pilot hole is being provided with location division along axis, and the radial both sides of described location division are provided with the portion of stepping down.

7. driven unit, comprises

Pinion stand, described pinion stand comprises pedestal, and described pedestal periphery wall is circumferentially provided with gear, and described pedestal is formed with the tubular container cavity along axis indent;

Driving force receiving element, the rod body part that described driving force receiving element comprises the drive division be arranged in described container cavity, is arranged on the outer end outside described container cavity and is connected between described drive division and described outer end;

It is characterized in that:

The bottom surface of described container cavity is provided with boss inwardly along axis, and the end of described boss is formed with the sphere outer wall caved in, and described sphere outer wall has been disposed radially groove;

The bottom of described sphere outer wall penetratingly offers guide hole along axis;

Described container cavity is provided with spring fitting position on the position of described guide hole;

The inwall of described container cavity is radially extended with follower inwardly.

8. driven unit according to claim 7, is characterized in that:

It is interior and adjacent with described groove that described drive division is arranged on described sphere outer wall.

9. driven unit according to claim 7, is characterized in that:

Described driven unit also comprises the spring part be enclosed within described rod body part, the first end of described spring part is connected with described drive division, second end of described spring part is connected with described spring fitting position, and described rod body part also can reciprocatingly slide along described guide hole through described guide hole.

10. handle box, the roller comprising framework and be rotatably supported in described framework, described roller comprises roll body and is arranged on driven unit on one end of described roll body, described driven unit comprises pinion stand and driving force receiving element, described pinion stand comprises pedestal, described pedestal periphery wall is circumferentially provided with gear, described pedestal is formed with the tubular container cavity along axis indent, the rod body part that described driving force receiving element comprises the drive division be arranged in described container cavity, is arranged on the outer end outside described container cavity and is connected between described drive division and described outer end;

It is characterized in that:

The bottom surface of described container cavity is provided with boss inwardly along axis, and the end of described boss is formed with the sphere outer wall caved in, and described sphere outer wall has been disposed radially groove;

The bottom of described sphere outer wall penetratingly offers guide hole along axis;

Described container cavity is provided with spring fitting position on the position of described guide hole;

The inwall of described container cavity is radially extended with follower inwardly.